Hepatocellular carcinoma (HCC) is a common malignancy in human. CD44 is a transmembrane glycoprotein which is frequently overexpressed in cancer of various origins. The function and mechanism of CD44 in HCC remains elusive. In this study, we reported that CD44 was overexpressed in HCC to promote the proliferation and migration of HCC cells via oncogenic YAP, which is the key downstream regulator in Hippo pathway. These findings suggest that CD44-YAP is a probable important axis in pathogenesis of HCC, providing an insight in to HCC pathogenesis as well as potential targets for the intervention of HCC.
This paper used Markov Chain, a mathematical model that is often utilized in predicting, to forecast the result of the election process of a person in a specific circumstance. In the way of modeling, starting from the tree diagram to the model of Markov Chain and related transition matrix, this paper aimed at the election result, which relates the object of study, a specific candidate. The research data are collected from the prompt of the research question and the calculation of coding based on the transition matrix. The result is, when it is the 64th year of that specific candidate running for the reelection campaign, he will be likely to retire from politics.
Zinc finger (ZnF) transcription factors (TFs) consist of ZnF-containing DNA-binding domains (DBDs) and intrinsically disordered region (IDR)-containing activation domains (ADs). Recent studies suggest that liquid-liquid phase separation (LLPS) is the fundamental mechanism underlying human health and disease, with ZnF TFs activating gene expression through the LLPS capacity of their IDR-containing ADs. However, little is known about how the well-folded DBD of ZnF TFs might be involved in their LLPS mechanism. GATA3 has been identified as one of the most frequently mutated genes in breast cancer, and its encoded protein GATA3, which contains two ZnFs (ZnF1 and ZnF2) in its DBD, is a master regulator of immunity. Here, we show that GATA3 undergoes LLPS in cells and in vitro, with its DBD playing an important regulatory role. Mechanistically, ZnF2 in the DBD contains two arginine amino acids (R329 and R330) to provide the critical charges to regulate GATA3 LLPS by generating multivalent electrostatic interactions. Functionally, we demonstrated that ZnF2-regulated GATA3 LLPS is the mechanism underlying the multifaceted function of GATA3 in breast cancer development and immune regulation, where aberrant GATA3 LLPS caused by artificial or breast cancer-associated ZnF2-defective mutations showed significantly reduced potentials in promoting breast cancer development and exhibited remarkably enhanced capacities in activating type I interferon signaling. Since ZnF is a common feature in the DBDs of ZnF TFs, by describing GATA3 as a proof-of-principle, our data suggest that ZnF-regulated LLPS may be a general mechanism underlying the multifaceted function of ZnF TFs in human health and disease.
ObjectiveThe pathogenesis of schizophrenia is associated with neuropeptide Y (NPY) gene polymorphism to explore the relationship between rs16141, rs16145, and rs5573 polymorphisms in the NPY gene and antipsychotics response in the Chinese population.MethodsThe unrelated 228 Chinese Han patients with schizophrenia were enrolled in the present study. Genotypisation within NPY gene was performed using the KASP genotyping assays. Before treatment and on the weekends of the 2nd, 4th, and 8th weeks after treatment, the medication status of the patients was recorded and the positive and negative syndrome scale (PANSS) was used to evaluate the clinical effect. A reduction in total PANSS scores ≥50% were classified as good responders, while others were poor responders. We evaluated the association between NPY gene and antipsychotic efficacy by comparing allele and genotype distribution, correlation analysis, linkage imbalance, and five genetic models between the two groups.ResultsNo significant associations were found in the rs16141, rs16145, and rs5573 of NPY and antipsychotic treatment response (all p > 0.05). There was no significant relationship between the three SNPs polymorphisms in the NPY gene and the changes of positive, negative and general psychopathology subscales scores at each stage (all p > 0.05). The distribution of genotype and allele frequencies of locus rs16141 was not statistically difference between good responders and poor responders (genotype: χ2 =4.088, p=0.043, p-correction = 0.129; allele: χ2 = 4.088, p = 0.027, p-correction = 0.081). The allele distribution of rs5573 was significantly different between groups, yet the difference was disappeared after correcting (χ2 = 4.136, p = 0.042, p-correction =0.126). The distribution frequencies of TA/TG and GG haplotypes constituted by rs16141 and rs5573 showed no statistical difference between the two groups (p > 0.05). In recessive inheritance mode, NPYrs5573 was found to be associated with antipsychotic drug response (G/G vs. A/A +A/G: p = 0.028, AIC = 197.2, BIC = 210.9).ConclusionsThis study didn't found association between polymorphisms in the NPY gene locus (rs16141, rs16145, and rs5573) and the response to antipsychotics after Bonferroni correction. The polymorphism of NPY gene and the efficacy of antipsychotic drugs in patients with schizophrenia need further study.
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